Ilana Lehn, Paulo Sérgio Gomes Paim, Farid Chemale Jr.
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引用次数: 0
Abstract
Precambrian sedimentary successions exposed worldwide record microbial deposits within both marine and continental strata. The Camaquã Basin records the transition from the Ediacaran to Cambrian periods in strata that comprise marine to lacustrine environments. The Camaquã Basin fossils comprise microbial mats and organic-walled microfossils in very close association. Carbonaceous laminae are common within the siltstone and mudstone layers and represent remarkably well-preserved Ediacaran microbial mats. These mats occurred along shallow marine through deep and shallow lake settings. The excellent preservation of these structures seems to be the product of calm hydrodynamic conditions and floodings. These hydrodynamic undisturbed environments allowed microbial mat growth. Besides, episodic floodings brought clay particles, which deposits guaranteed isolation from organic decomposition of mats. In general, the siltstones and mudstones record microbially induced sedimentary structures (MISS) that are typical from Ediacaran strata, such as wrinkle marks and elephant skin structures. Our research revealed that the occurrence of these structures is not limited to marine settings, as common in records from this period, but also present in lacustrine environments. Field studies were combined with optical and scanning electron microscopy plus energy-dispersive X-ray spectroscopy (SEM-EDS) analyses to demonstrate the vast occurrence of microbial mats along the deposits that registered the Camaquã Basin development. Geochemical data (whole-rock and total organic carbon (TOC) analyses) contribute to improving sedimentological descriptions, bringing light regarding the depositional environment where these microbial communities have developed. The excellent preservation state of organic matter on these marine and lacustrine siliciclastic sequences represents an impressive record in a Proto-Gondwana basin.
世界各地出露的前寒武纪沉积序列记录了海洋和大陆地层中的微生物沉积。卡马夸盆地记录了从埃迪卡拉纪到寒武纪的过渡,其地层由海洋环境到湖泊环境组成。卡马夸盆地的化石包括微生物垫和有机壁微小化石,两者结合非常紧密。碳质板层常见于粉砂岩和泥岩层中,代表了保存完好的埃迪卡拉纪微生物垫。这些微生物垫出现在浅海、深湖和浅湖环境中。这些结构保存完好似乎是平静的水动力条件和洪水泛滥的产物。这些不受干扰的水动力环境使微生物垫得以生长。此外,偶发性洪水带来了粘土颗粒,这些沉积物保证了垫层与有机物分解的隔离。一般来说,粉砂岩和泥岩记录了埃迪卡拉纪地层中典型的微生物诱发沉积结构(MISS),如皱纹和象皮结构。我们的研究发现,这些结构的出现并不像这一时期的记录中常见的那样仅限于海洋环境,在湖泊环境中也同样存在。实地研究结合光学和扫描电子显微镜以及能量色散 X 射线光谱分析(SEM-EDS),证明了在记录卡马夸盆地发展的沉积物中出现了大量微生物垫。地球化学数据(全岩和总有机碳(TOC)分析)有助于改进沉积学描述,揭示了这些微生物群落发展的沉积环境。这些海相和湖相硅质碎屑岩序列的有机物保存状态极佳,是原冈瓦纳盆地的一项令人印象深刻的记录。
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